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1IntroductionLanmuchangite ,anewmineralTlAl[SO4]2 ·1 2H2 O ,occursintheoxidationzoneofrichthalli umorebodiesattheLanmuchangthallium(mercury)deposit.Itisnamedafterthelocalitywhereitwasdiscovered .InJune,2 0 0 1 ,themineralanditsnamewereapprovedbytheCommissiononNewMineralsandMineralNames,IMA .ItstypicalmaterialisdepositedattheGeologicalMuseumofChina ,Beijing .2OccurrenceandmineralassociationLanmuchangiteoccursintheoxidationzoneofrichthalliumorebodiesattheLanmuchangthal lium(mercury)or… 相似文献
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砷铅铁矾一般产出于含砷硫化物矿床氧化带铁帽中,常见与之共生的矿物有臭葱石、砷铅石、砷铅铁石、乳砷铅铜石等砷酸盐类矿物。该矿物呈菱面体晶体,常呈假立方体状、粒状和球粒状。暗黄绿色。Hm=3.5,Hv=375kg/mm^2,Dm=4。广西平桂矿区产出的砷铅铁矾的化学成份W(B)/%为:PbO31.18,Fe2O3 31.38,As2O5 18.87,SO3 10.84,H2O 8,据此计算的矿物分子式为:Pb0.99Fe2.80(AsO4)1.17(SO4)0.96(OH)6.24。广西德保矿区产出的含铜较高的铜砷铅铁矾(?)的平均化学成份.W(B)/%为:PbO 31.72,Fe2O3 29.21,CuO 7.96,As2O5 14.84,SO3 9.88,H2O 8,据此计算的矿物分子式为:Pb0.99Fe2.61Cu0.69(AsO4)0.89(SO4)0.86o(OH)7.20砷铅铁矾(德保)的粉晶X射线分析主要衍射强线有:5.90(9),3.65(5),3.07(10),2.29(8),1.976(6)。晶胞参数为:a0=0.732nm,c0=1.702nm,Z=3。三方晶系,空间群为R3m。红外吸收光谱分析显示有波数/cm^-1为3475,3402,3212,1639,993,919,825,763,549,535.428等吸收带。差热分析显示有460C,770C和910C3个明显的吸热谷。 相似文献
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柴达木盆地位于青藏高原北部,沉积和储存了巨量的蒸发岩。其独特的地理位置、构造特征、盐类沉积和其它资源优势,成为地学领域各方向学者关注的焦点。2008年,中德合作在盆地西部取得千米深的钻孔,上部400 m表现为碳酸盐粘土层与盐层的交替,盐层的矿物种类是石盐(NaCl),石膏(CaSO4·2H2O),芒硝(Na2SO4·10H2O),无水芒硝(Na2SO4),钙芒硝(Na2Ca(SO4)2),杂卤石(K2MgCa2(SO4)4·2H2O),尤钠钙矾(Na4Ca(SO4)3·2H2O)和白钠镁矾(Na2Mg(SO4)2·4H2O),以石盐和石膏为主。碳酸盐粘土层中还出现了少量重晶石(BaSO4)、碳酸钠钙石(Ca2Na2(CO3)3)、钠钙矾(Ca2Na3(SO4)3(OH))、苏打石(NaHCO3)、斜碳钠钙石(Na2Ca(CO3)2·5H2O)、一水碳酸钠(Na2CO3·H2O)和水硼镁石(CaMg(B3O3(OH)5)2·6H2O)。碳酸盐粘土层中不同形态的石膏单晶、双晶和集合体,形成于次生浓卤水溶液,晶体形状与生长速度、溶液性质和环境条件有关。单盐矿物石盐、石膏和无水芒硝从卤水中直接结晶,复盐钙芒硝、白钠镁矾和尤钠钙矾则由单盐反应形成。尤钠钙矾为罕见的亚稳定矿物,柴达木盆地和青藏高原其它地区的研究中尚未见报道,该矿物形成温度远高于室温,可能是由石膏或无水芒硝在富Na SO4卤水溶液中反应形成。根据矿物种类、组合和阳离子含量推断,古卤水类型主要为Na Cl型,其次为Na Ca SO4、Na SO4、Na SO4 Cl、Na Ca SO4 Cl,少数层位为Ca SO4和Na Mg SO4型卤水。盐层和碳酸盐粘土层的交替说明,1 Ma以来钻孔所在区域为干湿交替气候,18个成盐阶段或气候干旱阶段出现在0.97~0.03 Ma,最早的两个蒸发阶段为0.96~0.97 Ma和0.87 Ma,其它蒸发阶段出现在0.78~0.03 Ma,厚盐层集中出现在0.5~0.03 Ma。 相似文献
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南华砷铊矿床铊黄铁矿的发现和研究 总被引:5,自引:0,他引:5
铊黄铁矿产在云南省南华砷铊矿床中,是钻的主要工业矿物。矿物是浅黄白色,金属光泽,条痕黑褐色。呈微粒和结核状分散在砷铝矿石中。矿物粒径0.001~0.028mm,HM=5.4,VHN100=514kg/mm2,D=5.2。共生矿物有雄黄、方铅矿、闪锌矿、白云石、石英和流砷铊铅矿等。矿相显微镜下反射色呈灰白色,均质性。电子探针分析平均化学成分及其变化范围(%):S48.64(45.58~50.12),As5.31(3.80~6.96),Fe38.63(37.65~40.50),T16.96(514~865),总计99.56。按(Fe,T1)/(S,As)原子数1:2计算,钻黄铁矿理论式为(Fe,Tl)(S,As)2。X射线粉晶分析属等轴晶系,空间群Pa3,Z=4,a=0.5442±0.02nm,略大于黄铁矿。从矿物化学式中可看出铊和砷分别替代铁和硫,它们的含量已超出通常黄铁矿中杂质含量范围,放将其定为铊黄铁矿。矿物存放在中国科学院地球化学研究所陈列馆。 相似文献
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铊的土壤污染及其环境影响 总被引:13,自引:0,他引:13
铊是典型的毒害金属元素。土壤铊主要有自然风化和人为排放两大来源。世界范围内,铊在土壤中的含量为0.2~1.0mg/kg。贵州黔西南滥木厂铊矿化区土壤中的铊十分富集。土壤中铊的生物有效性形态特征的研究表明,土壤中浓HNO3可提取铊的“环境不稳定相态”含量14~124mg/kg,占土壤中铊的环境总量(21~282mg/kg)的60%~70%,而NH4Ac提取的可交换相态含量较低,为0.6~4.8mg/kg,仅为“环境不稳定相态”含量的1%~4%,水溶相态含量则更低,为0.01~0.22mg/kg。土壤铊具有被植物体优先吸收富集的特性。铊在甘蓝卷心菜中的含量高达120~495mg/kg(DW),其吸收富集系数为1~10.7。因而,铊是一个易从污染土壤迁移至食物链中不可忽视的有毒元素。 相似文献
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由于中国西南低温成矿域独特的地质成矿环境,从而形成了矿种齐全,不同规模的矿床组合,特别是大型和超大型金属矿床组合.它们包括Tl、Hg、As、Sb、Cu、Pb、Zn、Cd、Ge、Sn、Au和Ag等在内的一套亲铜族元素组合的系列矿床.在矿产资源紧缺的今天,研究它们的成矿和找矿问题尤显重要.基于对Tl的亲硫亲砷性质、区域地质成矿环境、表生地球化学循环和生物地球化学研究,本文以铊矿床为例,从铊(含铊)矿物、元素组合、多岩性岩、生物成矿和表生地球化学5个方面对铊(含铊)矿床找矿某些问题进行阐述. 相似文献
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低温热液成矿作用中铊有机络合物搬运形式的研究 总被引:1,自引:0,他引:1
文章依据等库伦反应外推原理,计算了铊的醋酸(TlAc0)、柠檬酸(TlCit2-)、苹果酸(TlMal-)、草酸(TlOx-)及琥珀酸(TlSuc-)络合物在25~100℃之间的稳定常数。将这些稳定常数输入EQ3/6的DATA0.SUP热力学数据库后,在75℃和100℃温度条件下,对铊的诸物种于低温热液中在不同pH值条件下的分配进行了计算。计算表明,在中性及偏碱性条件下,在75℃还原环境中,自由铊离子(Tl+)所占比例约为55%,TlHS0约占10%,而其余则为铊的有机络合物,并以铊的柠檬酸络合物占绝对优势。在75℃氧化环境中,自由铊离子约占55%,而铊的有机络合物则为45%左右。在100℃还原环境中,自由铊离子所占比例约为20%,TlHS0约占20%,其余则为铊的有机络合物。在100℃氧化环境中,自由铊离子所占比例约为30%,其余则为铊的有机络合物。因而笔者认为,铊的有机络合物,尤其是铊的柠檬酸络合物,在低温热液中对于铊的溶解及搬运起着重要的作用。 相似文献
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新疆哈密红山高硫化物型浅成低温Cu-Au矿床的氧化带呈漏斗状产于原生硫化物矿体的上部,延深50~60m,以硫酸盐矿物为主。X射线粉晶衍射、湿法化学和差热分析研究表明,钾铁矾、板铁矾和副基铁矾3种硫酸盐矿物均系在中国首次发现。钾铁矾湿法化学分析为:H2O6.35%,SO349.72%,Na2O0.15%,Fe2O326.00%,K2O12.47%,FeO0.25%,SiO23.25%,不溶物0.85%,CaO0.11%,总计99.15%;XRD特征谱线为:4.40(100),4.26(70),6.58(47)。板铁矾湿法化学分析为H2O26.51%,SO349.91%,Na2O0.03%,Fe2O322.52%,MgO0.01%,CaO0.03%,总计99.01%;XRD特征谱线为:9.16(100),3.29(9),4.06(8)。副基铁矾湿法化学分析为H2O24.82%,SO338.53%,Al2O30.18%,Fe2O336.10%,MgO0.02%,CaO0.04%,总计99.69%;XRD特征谱线为:5.00(100),3.11(41),5.85(39)。热分析实验进一步验证了化学分析的可靠性,并对这些硫酸盐热反应机制作了解释。该类硫酸盐矿物已作为新型资源直接制酸用于湿法炼铜,具有选矿和环保上的巨大优势。对该类硫酸盐矿物的共生组合、形成次序、形成条件的深入研究还可用来反演古环境和古气候。 相似文献
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Gilles Serge Odin 《Comptes Rendus Geoscience》2002,334(6):409-414
Lithostratigraphy, physicochemical stratigraphy, biostratigraphy, and geochronology of the 77–70 Ma old series bracketing the Campanian–Maastrichtian boundary have been investigated by 70 experts. For the first time, direct relationships between macro- and microfossils have been established, as well as direct and indirect relationships between chemo-physical and biostratigraphical tools. A combination of criteria for selecting the boundary level, duration estimates, uncertainties on durations and on the location of biohorizons have been considered; new chronostratigraphic units are proposed. The geological site at Tercis is accepted by the Commission on Stratigraphy as the international reference for the stratigraphy of the studied interval. To cite this article: G.S. Odin, C. R. Geoscience 334 (2002) 409–414. 相似文献
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正1 Introduction Geological studies established on several sections in Lanping-Simao basin have shown that the salt-bearing strata of Mengyejing formation(Yunlong Fm.in Lanping basin)are constituted by an alternation of salt layers and interbedded facies.The latter consists mainly of mudstones,and mudstone-rich conglomerate.The mineralogy and geochemistry of salt-bearing beds and 相似文献
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正On 22nd April 2014,with the approach of the 45th World Earth Day,China’s Ministry of Land and resources issued the status of China’s mineral resources in 2013.The first task of the prospecting breakthrough strategy action implemented in the last five years has been completed,and China’s security capacity for mineral resources has been significantly improved.In the 相似文献
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正There are more than 700 salt lakes with area of more than 1km2 on the Qinghai-Tibet Plateau of China.In recent years,an oilfield brine was also found in the Nanyishan Section of Qaidam Basin in the Qinghai-Tibet 相似文献
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正1 Introduction Physical and numerical models are constructed to investigate the evolution and mechanism of salt migration driven by tectonic processes.In recent years,we have designed and ran series of models to simulate salt 相似文献
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YUAN Qin LI Jianguo QIN Zhanjie WEI Haicheng SHENG Shurong SHAN Fashou 《《地质学报》英文版》2014,88(Z1):276-276
正The study of Cretaceous-Palaeogene salt-bearing strata of the Khorat Basin Laos and the Lanping-Simao Basin in Yunnan,China has an great significance not only in explaining the basin evolution and the genesis of potash 相似文献
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正Potash is one of the long-term scare deposits in China,and potash prospecting has long been listed as a key brainstorm project for our nation and geological prospecting units.There have been considerable studies in search for potash deposits in the Kuqa depression of the Tarim basin(Jackson et al.,1991;Gemmer et al.,2004;Vendeville,2005;Vendeville and Jackson,1992a,1992b), 相似文献
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正1 Introduction Qaidam Basin in Qinghai,including 43 salt lakes with multiple dominant mineral such as potassium,magnesium,lithium etc.,is the most intensive distribution of Saline 相似文献